J-Matrix and Isolated States

We show that a quantum system with nonlocal interaction can have bound states of unusual type—Isolated States (IS). IS is a bound state that is not in correspondence with the S-matrix pole. IS can have a positive as well as a negative energy and can be treated as a generalization of the bound states embedded in continuum on the case of discrete spectrum states. The formation of IS in the spectrum of a quantum system is studied using a simple rank–2 separable potential with harmonic oscillator form factors. Some physical applications are discussed, in particular, we propose a separable NN potential supporting IS that describes the deuteron binding energy and the s-wave triplet and singlet scattering phase shifts. We use this potential to examine the so-called problem of the three-body bound state collapse discussed in literature. We show that the variation of the two-body IS energy causes drastic changes of the binding energy and of the spectrum of excited states of the three-nucleon system.